DE10014463A1 - Method and circuit arrangement for secure transmission in digital transmission systems - Google Patents

Abstract

A method for the secure transmission of data by obfuscation in point-to-point and point-to-multipoint digital transmission systems is specified. For this purpose, the transmission-side data stream (DS) is fed to a modulation unit (MOD) whose modulation and coding parameters (MP) of the modulation method (MV) can be changed over time. The modulation parameters (MP) are transmitted to a demodulator (DEM) via a secure channel (SK). The electrical transmission signal (ES), which is transmitted via a channel (K), is located at the output of the modulation unit (MOD). The demodulator (DEM), which knows the concealment sequence, regenerates the original signal and delivers the received data stream (DE) at the output.

Description

The invention relates to a method for securing the Transmission channel for point-to-point and point-to- Multipoint digital transmission systems according to the generic term of claim 1.

A previously known method of the so-called "coded Modulation "is in IEEE Trans. On Information Theory, vol. IT-28, no. 1, pp. 55-67, Jan. 1982 by G. Ungerboeck under entitled "Channel coding with multilevel / phase signals" described.

In addition, by G. Ungerbroeck in IEEE Comm. Mag., Vol. 25, no. 2, pp. 5-21, Feb. 1987 under the title "Trellis coded modulation with redundant signals set " known method described.

Baseband transmission methods are, for example, in ISDN (ETSI TS080 r3a) and in HDSL standard (ETSI TS 101 135 V1.4.1). These procedures have several stages on; such a procedure is particularly on the pages 21-22 of the HDSL standard.

As clearly from the description of the known methods emerges from the publications mentioned, these are Procedures limited in their scope. Moreover would be especially technical in the Mbit / s area High effort.  

The invention is therefore based on the object Procedure for securing the transmission channel at point to-point and point-to-multipoint digital transmission to create systems based on the obfuscation of Data stream is based, especially at bit rates in Mbit / s Area makes the use of additional hardware unnecessary and also especially for DMT processes in ADSL Systems can be implemented in software, as well as a Circuit arrangement for performing the method create.

The inventive solution to the problem for the method consists in the characteristic of claim 1.

Further solutions or refinements of the invention are in characterized the claims 1 to 10.

The circuit arrangement for performing the method is characterized in claim 11.

The new procedure for securing the transmission channel at Point-to-point and point-to-multipoint digital transmission systems mainly consists in that it is not based on Encryption of the data stream but on Concealment of the transmission signal is based. So it happens no, as is customary in the prior art, encryption binary level.

Another significant advantage of the invention The solution is that for all procedures of Multi-carrier, single-carrier and strapless Amplitude modulation-pulse modulation coded modulation and baseband transmission is suitable. The supply and  Unveiling has the advantage that especially at bit rates in the Mbit / s area the use of special additional Hardware is superfluous and that in DMT processes in ADSL systems can be implemented in software; this was with the previously known methods not possible.

Further advantages, features and possible applications of the present invention, in particular the Ver and Unveiling result from the following Description in conjunction with those in the drawing illustrated embodiments.

The invention is described below with reference to the drawing illustrated embodiments described in more detail. In the description, in the claims, the Summary and in the drawing are those in the list of reference numerals given below Terms and associated reference numerals used.

In the drawing:

Fig. 1 is a basic functional diagram;

Fig. 2 shows a more detailed functional program for single-carrier transmission methods and

Fig. 3 shows an example of the concealment by the present process.

The present procedure for securing the Transmission channel, especially with point-to-point and Point-to-multipoint digital transmission systems Concealment of the data transmission is based on the fact that  Encryption of the data not in the binary level, but in the modulation process by changing the time Modulation parameters over a secure channel too transmitted to a demodulator. The safe one The channel is separated externally by a separate one Transmission path implemented or in the transmission path integrated and protected with cryptographic methods.

When implementing for multi-carrier transmission procedures, so-called multitone procedures, in which the Information in several using quadrature amplitudes modulaticn QAM modulated channels is transported both the assignment of frame bits to the individual Channels as well as the assignment of information bits to the Modulation symbols per channel (so-called mapping) and also the assignment of the respective Modulation alphabet for each individual carrier in time varies.

For the multicarrier transmission methods as described in the current ADSL systems according to ANSI standard T1E1.4 / 98-007 and ETSI DTS / TM-06006 are defined, the Assignment of ADSL frame bits to the individual channels (so-called tone ordering), the assignment of the Information bits about the modulation symbols per channel (so-called mapping) and also the assignment of the Modulation alphabets for each individual carrier in time varies.

For the implementation for single-carrier transmission procedures with QAM quadrature amplitude modulation, as used in radio relay and used in the broadband cable, the Assignment of the transmitted bits to the modulation symbols  varies over time.

For the implementation for carrierless amplitude / phases modulation process (so-called carrierless AM / PM (CAP) procedure), as a special case for transmission used by HDSL systems, the sent bits to the modulation symbols as well varies over time.

For baseband transmission methods, for example according to ISDN (ETSI TS080 r3a) and HDSL standard (ETSI TS 101 135 V1.4.1), which have more than two levels, the Assignment of the transmitted bits to the signal levels also varies over time. This also applies to the so-called coded modulations, the assignment of the Information bits for the modulation symbols per channel, (so-called mapping), the code parameters, such as the generator polynomials for block and convolutional codes, can also be varied in time.

In Fig. 1, the principle of operation is shown based on a basic functional diagram. The method according to the invention is first described in principle on the basis of this figure.

The transmitter-side data stream DS first becomes one Modulation unit MOD supplied, the Modulation parameter MP of the modulation method MV are changing over time. The modulation parameters MP become a demodulator via a secure SK channel Transfer DEM. Is at the output of the modulation unit MOD an electrical transmission signal ES to the channel K  is transmitted. The demodulator DEM regenerates under Using knowledge of time-dependent Modulation parameter MP a received signal Receive data stream DE.

Another exemplary embodiment of a single-carrier transmission method 16-QAM is shown in principle in FIG. 2 and is explained below.

The serial binary data stream DS is on the input given a serial / parallel converter SP, the one Converts to 4-bit words. The exit of this Converter is connected to a concealment unit V, which is a time-varying assignment of a Input word to the output word. A Modulation symbol allocation unit MP 'or also Mapping unit then provides a clear assignment to sending channel symbol, which is indicated by the values Is and Qs is marked. The modulator MOD creates this electrical RF signal transmitted over channel K. becomes.

At the receiving end, the RF signal is converted into a two-dimensional baseband signal with the components Ie and Qe in a demodulator DEM. A demapping unit DMP generates a binary 4-bit word e _d . A subsequent decurling unit E generates the binary 4-bit word e _de at its output, which is passed to a parallel / serial converter PS and is available at its output as a reception data stream DE. The veiling sequence is transmitted between the veiling unit V and the unveiling unit E by means of a secure channel SK, which can be implemented externally or can also be integrated into the main channel.

FIG. 3 shows the basic illustration of the concealment of code words, as is the basis of the present method. The effect of obfuscation is shown using the example of the 16-QAM signal state diagram. The points in the diagram correspond to the possible value pairs I _s and Q _s at the input of the modulator MOD in FIG. 2. Since the block mapping MP brings about a clear mapping of the binary vector e _sv on the input side to a point in the constellation diagram, and likewise the block obfuscation (V ) a clear mapping from e _s to e _sv , the effect of the obfuscation unit V can be understood as a clear change in the assignment of the points of the signal constellation to the sixteen different values of the binary vector e _s . This change in the assignment is indicated by the arrows in FIG. 3. The unveiling unit E carries out this change of assignment in the reverse manner. If no transmission error has occurred, the binary word e _de at the output of the concealment unit E is identical to the binary word e _s at the input of the concealment unit V.

List of reference numbers

DE Receive data stream
THE demodulator
DMP demapping unit
DS data stream
e _d

, d _e

Word (binary)
e _s

, e _sv

Word (binary)
E unveiling unit
ES electrical transmission signal
I _s

, Q _s

Components of the two-dimensional baseband signal (at the modulator input)
I _e

, Q _e

Components of the two-dimensional baseband signal (at the demodulator output)
MOD modulator
MP modulation parameters
MP 'mapping unit or modulation symbol assignment unit
MV modulation method
K channel icon
K channel
SP / PS serial / parallel or parallel / serial converter
SK safe channel
V obfuscation unit

Claims (11)

1. A method for the secure transmission of data of a transmission channel in point-to-point and point-to-multipoint digital transmission systems, characterized in that
that an electrical transmission signal (ES) of a data stream (DS) is obscured in the modulation process by a temporal change in modulation parameters (MP) and
that the modulation parameters (MP) are transmitted to a demodulator (DEM) via a secure channel (SK). 2. The method according to the preamble of claim 1, characterized in that
that a transmission-side data stream (DS) is fed to a modulator (MOD),
that modulation parameters (MP) of a respective modulation method (MV) are time-varying,
that the modulation parameters (MP) are transmitted to a demodulator (DEM) via a secure channel (SK),
that an electrical transmission signal (ES) is present at the output of the modulator (MOD), which is transmitted via a channel (K) and
that the demodulator (DEM) regenerates the received signal (Es) by means of time-dependent modulation parameters (MP). 3. The method according to claim 1 or 2, characterized featured, that the safe channel (SK) externally through a separate transmission path is implemented. 4. The method according to any one of claims 1 or 2, characterized, that the safe channel (SK) in the transmission channel (K) is integrated and using cryptographic methods or procedures for the secure transmission of data is protected. 5. The method according to any one of claims 1 or 2, characterized, that in multi-carrier transmission methods, in particular so-called multitone processes, in which the Information in several QAM modulated channels is transported by assigning the frame bits the individual channels, the assignment of the Information bits for the modulation symbols per channel, the so-called mapping, and the assignment of the Modulation alphabets for each individual carrier is varied in time. 6. The method according to any one of claims 1 to 5, characterized in
that ADSL frame bits are assigned to the individual channels in ADSL systems in accordance with ANSI standard T1E1.4 / 98-007 and ETSI DTS / TM-06006,
that the assignment of the information bits to the modulation symbols per channel and
that the assignment of the modulation alphabet for each individual carrier can be varied over time. 7. The method according to any one of claims 1 to 4, characterized, that for implementation in one Single-carrier transfer procedure with Quadrature amplitude modulation (QAM) the assignment of the sent bits to the modulation symbols in time is varied. 8. The method according to claims 1 to 4, characterized featured, that for implementation for carrierless amplitude / phases modulation method (Carrierless AM / PM (CAP) - Procedure) and as a special case for transfer HDSL systems by temporal assignment of the broadcast Bits to the modulation symbols is varied. 9. The method according to any one of claims 1 to 4, characterized, that the implementation for baseband transmission proceed with more than two levels to assign the  sent bits to the signal levels varies in time becomes. 10. The method according to any one of claims 1 to 4, characterized, that when implemented for coded procedures Modulation the assignment of the information bits to the Modulation symbols per channel, and the code parameters, especially generator polynomials in block and Convolutional codes, can be varied in time. 11. Circuit arrangement for performing the method according to one of claims 1 or 2 or 5.